JP3618721B2 - Engine muffler and motorcycle - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The invention according to the claims relates to an engine muffler (silencer) and a motorcycle including the muffler.
[0002]
[Prior art]
7 and 8 are longitudinal sectional views of conventional general mufflers.
The muffler 90 in FIG. 7 includes a cylindrical outer tube 91 that forms the outer wall of the muffler body, a plate with holes (punching metal) 93a, partition plates (baffle plates) 93b and 93c, an inner tube (baffle pipe) 96, A plurality of expansion chambers are configured by attaching 97, 98, and the like. The outer cylinder 91 is formed by inner and outer double walls (the inner one is made of punching metal), and a sound absorbing material (glass wool) is filled therebetween. Both ends of the outer cylinder 91 are closed by end wall surfaces 92a and 92b, respectively, and an exhaust introduction pipe (inner cylinder) 95 and an exhaust discharge pipe (inner cylinder) 98 are provided near the center of each wall surface 92a and 92b. While exhaust flows from the exhaust introduction pipe 95 to the exhaust discharge pipe 98, the exhaust sound is caused by the expansion of the exhaust in each expansion chamber and the reflected wave generated by the partition plate between each chamber interferes with the traveling wave. Furthermore, the sound pressure is gradually lowered by being absorbed by the sound absorbing material. In the case of the illustrated muffler 90, the interference between the reflected wave and the traveling wave occurs when the exhaust gas flows through the inner cylinders 96, 97, 98. In FIG. 7, black arrows indicate the direction of exhaust flow (the same applies to other drawings).
[0003]
Further, the muffler 80 shown in FIG. 8 has a thin outer diameter, and is provided with holes with holes (punching metal) 83a and 83b and inner cylinders (baffle pipes) 85 and 86 inside the outer cylinder 81. In addition to forming an expansion chamber, other members are attached around the inner cylinders to form resonance spaces (resonators) 87, 88, and 89. The outer cylinder 81 is also formed by inner and outer double walls and filled with a sound absorbing material between them. While the exhaust gas flows from the inner cylinder 85 to the inner cylinder (exhaust gas exhaust pipe) 86, which is also an exhaust pipe, the exhaust noise is expanded in the expansion chamber, interacts with the sound generated in the resonance space, and The sound pressure is gradually reduced by being absorbed by the sound absorbing material.
[0004]
[Problems to be solved by the invention]
The muffler 90 as shown in FIG. 7 is satisfactory in relation to the silencing effect and the engine performance, but has a considerable outer diameter and volume, and thus tends to cause problems with respect to the arrangement size and occupied space. In order to reduce the outer diameter, it is only necessary to make the outer cylinder 91 narrower together with the inner cylinders 96, 97, and 98. However, in that case, the resistance of the exhaust passing through the interior increases and the engine performance is sufficiently improved. In other words, it may be impossible to achieve this, or it may be difficult to attach the three inner cylinders 96, 97, and 98 to the partition plate 93c by welding or the like as illustrated.
In addition, when such a large outer diameter is used for a motorcycle, there are many problems in appearance. That is, if the muffler 90 has a large diameter, the width of the vehicle body including the muffler 90 tends to be large, and it is difficult to design an ideal vehicle body that is compact and collects the weight portion near the center of gravity. The muffler in the motorcycle has a role of impressing the appearance of the motorcycle together with the exhaust pipe leading to the muffler, but the lightness on the appearance may be lost due to the large diameter of the muffler 90.
[0005]
On the other hand, the muffler 80 configured as shown in FIG. 8 has an advantage that the outer diameter is small and preferable in appearance, but there is a problem with respect to reduction of exhaust noise. The silencing by the action of the resonator (resonance space) is effective only for the sound of a specific frequency, and the silencing effect is low in other frequency ranges. Therefore, it is difficult to significantly reduce the exhaust sound over a wide sound range by the action of the resonator. In addition, as shown in FIG. 8, around the exhaust discharge pipe 86, which is normally set as a long tail pipe, only a resonator 89 having a length equivalent to that length is formed, and exhaust does not flow here. Therefore, it can be said that there is a limit in terms of efficient use of the internal space for noise reduction.
[0006]
The invention according to the claims aims to provide a muffler for an engine that is compact and provides an advantage in appearance, and that is also excellent in terms of a silencing effect and engine performance, and a motorcycle equipped with the muffler.
[0007]
[Means for Solving the Problems]
The engine muffler according to claim 1 is provided with an inner cylinder having a partition plate on the inside so as to reverse (that is, reflect) the flow direction of exhaust gas inside the outer cylinder (including the end) of the muffler body. The inner cylinder that allows exhaust to pass inside is placed in a state where a part of the inner cylinder is inserted into the inner cylinder.And a cylindrical first muffler body in which only one expansion chamber is formed by providing an exhaust inlet and outlet at one end and a wall surface at the other end. -The muffler body having the middle cylinder and the inner cylinder is connected in series as a second muffler body.
The “inner cylinder” referred to above includes an exhaust pipe or exhaust pipe in the muffler body.“Connecting in series” means connecting not so as to be parallel but to allow exhaust to flow sequentially from the outlet of the first muffler body to the second muffler body. The muffler 2 shown in FIG. 2 is an example of what belongs to the muffler of this claim.
[0008]
This engine muffler is connected to engines such as motorcycles, generators, various working machines and general-purpose machines, in addition to vehicles such as motorcycles and ATVs (four-wheel buggy cars), and has the following advantages.
a)The second muffler bodyAn excellent silencing effect can be demonstrated. In addition to providing a portion where the exhaust expands on the downstream side of the inner cylinder through which the exhaust passes, the exhaust passing through the inner cylinder is reflected by a partition plate in the middle cylinder, causing interference of reflected waves and traveling waves This is because the energy of the exhaust sound can be sufficiently attenuated in each part. If the reflection part of the exhaust is in the muffler, a remarkable silencing effect over a wide sound range is brought about as compared with the muffler of the type shown in FIG. The effect can be further enhanced by appropriately using a sound absorbing material for the outer cylinder or the like.
[0009]
b)The second muffler bodyDespite the high silencing effect as described above, the outer diameter is small. In order to reflect and exhaust the exhaust gas inside the muffler, in the case of the conventional muffler as shown in FIG. 7, it is necessary to arrange three inner cylinders 96, 97, and 98 adjacent to one partition plate 93c. The outer cylinder was enlarged, but the muffler of this claimThe second muffler bodyThis is because it is sufficient to arrange a single inner cylinder having an inner cylinder disposed inside the outer cylinder. The resonator that does not allow exhaust to pass as shown in the example of FIG. 8 is not used as a main part, but the exhaust sound is attenuated through the exhaust through most of the space in the outer cylinder. There is an effect of reducing the diameter. If the outer diameter is small, the arrangement on a motorcycle or the like is facilitated, and the weight distribution and appearance advantages of the vehicle body are brought about.
[0010]
c)2nd muffler bodyThere is also a merit that it is easy to draw out the engine performance because the resistance of the exhaust passing through the inside is small. In the example of FIG. 7, it is necessary to provide a partition plate 93c between the inner cylinders 96, 97, and 98, so that there is an area portion where exhaust does not flow, and when the diameter of the outer cylinder is reduced, the inner cylinder becomes considerably thin. As a result, exhaust resistance increased. However, if the above-described configuration in which the inner cylinder having the inner cylinder disposed therein is disposed inside the outer cylinder, the area where no exhaust flows as described above does not exist in the portion where the exhaust is folded back. The diameter of the inner cylinder can be increased even if the diameter is considerably reduced. This is the reason why the exhaust resistance can be kept small in the muffler of this claim.
This engine muffler also has the following advantages.
-By the action of the first muffler body, low frequency components in the exhaust sound can be particularly effectively removed. As described above, the first muffler body has an exhaust introduction port and an exhaust port at one end portion, a wall surface portion at the other end portion, and a single expansion chamber formed therein. Therefore, the exhaust sound of the exhaust gas that has entered from the inlet is reflected by the wall surface portion, so that the traveling wave and the reflected wave effectively interfere with each other in the first muffler body. Since the wall surface portion is provided at the end opposite to the side having the inlet / outlet, if a sufficient length is given to the first muffler body (for example, 300 mm or more like the entire length of a normal muffler body) A sufficient phase difference can be obtained between the traveling wave and the reflected wave, and an excellent silencing effect for low frequency components can be obtained. If a straight space is formed without providing anything between the ends on both sides, the effect of removing low-frequency components will be enhanced. However, several partition plates or a sound-absorbing material may be provided between them to increase the frequency. It is also possible to reduce the components at the same time.
-The action of the second muffler body connected in series with the first muffler body also exhibits a silencing effect over a wide sound range including high frequency components. The silencing effect of the second muffler body is as described above. In addition, if a sound absorbing material such as glass wool is used for either or both of the first muffler body and the second muffler body, it is possible to improve the high-frequency component removal characteristics.
-Since two muffler bodies that can be configured with a small outer diameter are used, the required space of the entire muffler can be reduced. It is also easy to draw out engine performance by reducing exhaust resistance.
[0011]
The engine muffler according to claim 2 is, in particular,In the muffler body (second muffler body) having the outer cylinder, the middle cylinder, and the inner cylinder,The two inner cylinders are arranged such that a part of each is inserted into both ends of the middle cylinder and the partition plates are opposed to each other. However, a muffler having an inner cylinder other than the two inner cylinders is not excluded. In the muffler illustrated in FIGS. 1 and 4, the two inner cylinders 16 and 17 are arranged to face each other with the partition plate 14 a interposed therebetween.
[0012]
In the muffler in which the arrangement relationship of the middle cylinder and the inner cylinder is as described above, the exhaust part can be folded back at at least two places in the muffler body. That is, since the inner cylinder through which the exhaust passes is on both sides of the partition plate of the middle cylinder, the exhaust is reflected on both the front and back surfaces of the partition plate. For example, referring to the example of FIG. 1, the exhaust gas passes through one inner cylinder 16 and travels into the middle cylinder 14, hits the partition plate 14 a, turns back, and passes through the space between the middle cylinder 14 and the inner cylinder 16. It flows out of the cylinder 14. The exhaust then enters the inside of the middle cylinder 14 (between the inner cylinder 17) from the other end, turns back against the other surface of the partition plate 14a, and passes through the inside of the inner cylinder 17. Eventually, the exhaust gas is reflected on both the front and back surfaces of the partition plate 14a (causing interference between reflected waves and traveling waves each time), so that this muffler provides a remarkable silencing effect in a wide sound range.
[0013]
The engine muffler according to claim 3 is, in particular,In the muffler body (second muffler body) having the outer cylinder, the middle cylinder, and the inner cylinder,The outer cylinder, the middle cylinder and the inner cylinder are arranged concentrically.
[0014]
Even if the outer cylinder, the middle cylinder, and the inner cylinder are not arranged concentrically, the exhaust can be reflected and advanced as described above, so that the exhaust sound can be attenuated. However, if the cylinders are arranged concentrically as in the muffler of this claim, the exhaust flow space is uniformly formed in the transverse section of the muffler body without being partially biased, so that the exhaust flows easily. Besides facilitating the performance of the engine, it also improves the noise reduction performance. When arranged concentrically, there is an advantage that each part can be easily manufactured and assembled.
[0015]
The engine muffler according to claim 4 further includes:In the muffler body (second muffler body) having the outer cylinder, the middle cylinder, and the inner cylinder,
A) An inner cylinder (17) as an exhaust pipe or exhaust pipe is supported on an end wall surface (12b) of the muffler body (10),
B) One end of the middle cylinder (14) is supported on the outer circumference of the supported inner cylinder (17), and another inner cylinder (16) is supported on the inner circumference of the other end of the middle cylinder (14). )
C) The outer circumference of the other inner cylinder (16) (the part protruding from the middle cylinder) is inserted into and supported by the inner opening of the partition plate (16a) attached to the inner circumference of the outer cylinder (11). The
It is characterized by that. Of the above, the reference numerals in parentheses are those in the muffler 1 of FIG.Including muffler bodyNot to mention examples). The support of the inner cylinder (17, 16) by the “end wall surface (12b)” and the “partition plate (16a)” is blocked by the wall surface or the plate, and the exhaust does not pass through the outside of each inner cylinder. However, in other support portions (the support portion between the inner cylinder (14) and the inner cylinder (16, 17) described in the above b)), the exhaust gas can also flow outside the inner cylinders. To do.
[0016]
In such a muffler, the middle cylinder and the two inner cylinders can be easily and stably disposed inside the outer cylinder. That is, the two inner cylinders and the middle cylinder integrated in a supported / supported relationship as in (b) above are supported on the end wall surface of one inner cylinder as in (a) and the other inner cylinder is supported. By supporting the partition plate in the outer cylinder as in (c), it can be appropriately arranged in the outer cylinder. The outer cylinder only supports the two inner cylinders inside, but the middle cylinder has a supporting relationship with the inner cylinder, and therefore does not need to be supported by the outer cylinder.
[0017]
The engine muffler according to claim 5 further includes:In the muffler body (second muffler body) having the outer cylinder, the middle cylinder, and the inner cylinder,An inner cylinder (17) as an exhaust pipe or exhaust pipe is fixed to the end wall surface of the muffler body (fixed by welding or brazing), and the other inner cylinder (16) is fixed to the outer cylinder (11). Lightly press-fitted inside the partition plate (16a) attached to the inner periphery (that is, a tight fit with a small gap or no gap, allowing the inner cylinder and the partition plate to move relative to each other in the axial direction) It is characterized by that. Again, the reference numerals in parentheses are those in the example of FIG. 1 (however, the invention of this claim is not limited to the example of FIG. 1).
[0018]
In such a muffler, even when a temperature difference is generated between the outer cylinder and the middle cylinder / inner cylinder, the generation of stress due to thermal expansion is greatly reduced. For example, when the temperature of the middle cylinder and the inner cylinder rises higher than the temperature of the outer cylinder, the middle cylinder and the inner cylinder thermally expand in the axial direction (length direction) more than the outer cylinder, This is because the inner cylinder lightly press-fitted with respect to the partition plate moves in the axial direction and is eliminated without generating stress.
[0025]
Claim 6The motorcycle described inClaims 1-5The engine muffler according to any one of the above is provided.
[0026]
Since this motorcycle is equipped with the above-described engine muffler, first, it can emit exhaust sound from which a wide sound range component has been removed, and can exhibit high engine performance by reducing loss due to exhaust resistance. . Further, since the outer diameter of the muffler is small, it is possible to make a preferable vehicle body design in which the entire width including the muffler is reduced, the vehicle body is made compact, and the weight portion is collected near the center of gravity. From the same point, it also has a light feeling on the exterior.
[0027]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the invention are shown in FIGS.
FIG. 1 is a longitudinal sectional view of the muffler 1. The muffler 1 is composed of a single muffler body 10. The muffler body 10 is provided with end wall surfaces 12a and 12b at both ends of a cylindrical outer cylinder 11 forming an outer wall, and at the center of each wall surface 12a and 12b. The exhaust pipe 15 and the exhaust pipe 17 are respectively inserted, and the middle cylinder 14 and the inner cylinder 16 are arranged in the space thus formed. Parts other than the sound absorbing material described later used in the outer cylinder 11 are all formed of stainless steel. Details of the configuration and operation of the muffler body 10 are as follows.
[0028]
First, the outer cylinder 11 is filled with a sound absorbing material 11c made of glass wool inside the outer cylinder 11a, and an inner cylinder 11b made of punching metal is inserted inside them. The outer cylinder 11a and the inner cylinder 11b are integrated by welding or the like at both ends.
[0029]
An exhaust introduction pipe 15 is inserted as an inner cylinder with respect to the outer cylinder 11 at an end wall surface 12 a on the left side in the figure corresponding to the upstream side of the muffler body 10. The downstream end of the introduction pipe 15 is opened to a portion having a large cross-sectional area in the outer cylinder 11, that is, an expansion chamber. There are many small holes in the portion that leads to the introduction pipe 15 and its expansion chamber so as to provide resistance to the exhaust flow (thus reducing the exhaust energy and changing the low-pitched sound that is difficult to absorb in the exhaust sound to high sound). A formed disc-shaped holed plate (punching metal) 18 is disposed.
[0030]
In a portion on the downstream side of the holed plate 18, a disc-shaped partition plate 16 a is fixed inside the outer cylinder 11, and the inner cylinder 16 is inserted concentrically with the outer cylinder 11 on the inner side, and downstream of the inner cylinder 16. The end was placed in the middle cylinder 14 which was also arranged concentrically with the outer cylinder 11. Inside the middle cylinder 14, a partition plate 14 a is provided in the middle in the length direction (a position slightly shifted from the center toward the upstream side or the downstream side) at a right angle to the axis. As a result, the exhaust gas that has passed through the holed plate 18 passes through the inside of the inner cylinder 16 into the middle cylinder 14, hits the partition plate 14 a, returns to the inner cylinder 16, and moves outside the inner cylinder 16. It passes through the end of the middle cylinder 14 (the upstream end on the left side in the figure). Then, the exhaust gas exiting the end of the middle cylinder 14 hits the partition plate 16a provided in the outer cylinder 11 outside the middle cylinder 14, is turned back, and this time, the outer side of the middle cylinder 14 is downstream (illustrated). Proceed to the right). Exhaust gas is reflected at the two locations of the partition plate 14a and the partition plate 16a, and the interference between the reflected wave and the traveling wave occurs at the respective portions, so that the energy of the exhaust sound is effectively attenuated.
[0031]
As described above, the exhaust pipe (inner cylinder) 17 is provided on the downstream end wall surface 12b. Of the exhaust pipe 17, the vicinity of the upstream (left side in the drawing) end portion is as described above. It is located inside the middle cylinder 14 arranged in the outer cylinder 11. This discharge pipe 17 is also arranged concentrically with respect to the middle cylinder 14 and the outer cylinder 11. Exhaust gas that travels downstream from the outer side of the middle cylinder 14 turns back by hitting the end wall surface 12b, travels to the left in the middle cylinder 14 and then turns back by hitting the partition plate 14a. Proceed to go outside. That is, the exhaust gas is also reflected at the two locations of the wall surface 12b and the partition plate 14a in the downstream portion of the middle cylinder 14, and the energy of the exhaust sound is effectively attenuated by the interference between the reflected wave and the traveling wave at each part. Regarding the diameters of the inner cylinders 16 and 17 and the inner cylinder 14, the sectional area inside the inner cylinders 16 and 17, the sectional area inside the inner cylinder 14 and outside the inner cylinders 16 and 17, and the outer cylinder 11 and the cross-sectional area of the outer side of the middle cylinder 14 are set to be approximately equal to each other.
[0032]
The muffler body 10 needs to incorporate various members including the inner cylinder 14 and the inner cylinder 16 into the outer cylinder 11, and such a configuration procedure is as described in 1) to 7) below.
1) The plate 18 with a hole is fixed to the inner surface of the inner cylinder 11b which becomes a part of the outer cylinder 11. Spot welding is performed on the outer edge portion of the plate 18 with a hole and the inner cylinder 11b, or a small hole leading to the inside and outside is made in a part of the inner cylinder 11b, and plug welding is performed between the two from the outside. That's fine.
2) In the same manner as described above, the partition plate 16a having an opening inside is fixed to the inner surface of the inner cylinder 11b. A small hole 16b indicated by a broken line in the drawing is formed in the inner cylinder 11b, and is used for plug welding the outer edge portion of the partition plate 16a and the inner cylinder 11b.
3) A partition plate 14a is inserted in the middle of the middle cylinder 14 before being put into the outer cylinder 11, and fixed by spot welding (or plug welding).
4) The inner edges of the support pieces 14b and 14c are welded to the two inner cylinders 16 and 17, respectively, and the inner cylinders 16 and 17 are inserted into the middle cylinder 14, and the outer edges of the support pieces 14b and 14c. Is welded to the middle cylinder 14. Each of the support pieces 14b and 14c is a stainless steel plate having exhaust passage holes at several locations. In addition, an end wall surface 12b is attached to the downstream end portion of the inner cylinder 17 which is also an exhaust discharge pipe by all-around welding.
5) The middle cylinder 14 integrated with the inner cylinders 16 and 17 by the above 3) and 4) is inserted into the inner cylinder 11b from the downstream side (right side in the drawing). At this time, the vicinity of the front end portion of the inner cylinder 16 is inserted into the inner opening of the partition plate 16a that has been welded and fixed in a light press-fit state. In order to reduce the generation of thermal stress even when the thermal expansion amount of the inner cylinders 16 and 17 and the intermediate cylinder 14 is different from the thermal expansion amount of the outer cylinder 11 during use, The tube 16 is not welded so that the relative movement in the length direction is possible.
6) A sound absorbing material 11c is attached around the inner cylinder 11b, and an outer cylinder 11a is placed on the outer periphery, and the inner cylinder 11b and the outer cylinder 11a are welded at both ends. Further, the downstream end portion of the outer cylinder 11a is folded back so that the outer peripheral portion of the end wall surface 12b is wound, and spot welding is performed, so that the inner cylinder 17 and the middle cylinder 14 are connected to the outer cylinder 11 together with the end wall surface 12b. Secure to the end.
7) An end wall surface 12a integrated with the inner cylinder (exhaust pipe) 15 is welded to the upstream end (left side in the drawing) of the outer cylinder 11.
[0033]
The muffler 2 shown in FIG. 2 is configured by combining the muffler 1 in the example of FIG. 1 with the second muffler body 10 and combining it with the first muffler body 20 having another structure. That is, the first muffler body 20 similarly formed in a cylindrical shape is connected to the exhaust pipe 15 of the muffler body 10 so as to be upstream of the exhaust flow with respect to the second muffler body 10, and both are brought close to each other. And arranged in parallel.
[0034]
The first muffler body 20 is provided with an exhaust inlet 23 and an outlet 24 in a partition plate 25a provided at one end 22a, and the other end 22b is closed by an end plate 25b. A single expansion chamber is formed. In the first muffler body 20, the exhaust gas that has entered from the introduction port 23 turns back in the middle, proceeds as shown by the black arrow in the figure, proceeds to the discharge port 24, and exhaust sound reaches the end portion 22 b and reaches the end plate. The light is reflected by the wall surface portion 25b as indicated by the white arrow and returns to the end 22a side. Therefore, inside the first muffler body 20, the traveling wave and the reflected wave of the exhaust sound are overlapped, and an effect of canceling out the sound pressure based on the mutual phase difference occurs. In addition, since the distance from one end 22a to the other end 22b is long (about 300 mm; however, it is changed in accordance with the frequency range to be reduced), a sufficient phase difference can be taken and low frequency components can be reduced. The exhaust noise can be effectively reduced at the center. Therefore, even if the diameter of the first muffler body 20 is small, excellent silencing performance is exhibited. The cylindrical body body is integrated with the cylinder 21a by attaching a sound absorbing material 21c made of glass wool to the inside of the outer cylinder 21a made of a stainless steel plate, and further inserting an inner cylinder 21b made of stainless steel punching metal inside. It is formed by doing.
[0035]
A pipe (joint pipe) 44 leading to the exhaust inlet 23 to the first muffler body 20 and a connecting pipe 26 continuing from the exhaust outlet 24 to the second muffler body 10 are concentric with the former inside the latter. After being integrated so as to be included in the shape, it is inserted into the partition plate 25a. That is, a hole is made in a partial wall surface of the connecting pipe 26 obtained by bending a thick pipe into a U-shape, and the pipe 44 is passed through the inside of the hole, and the entire circumference is welded between the holes. Thus, if it arrange | positions concentrically, the wide cross-sectional area can be given to the inlet 23, the outlet 24, and the flow path of exhaust_gas | exhaustion following it.
[0036]
The muffler 2 of FIG. 2 configured in this way can effectively reduce exhaust sound over a wide sound range from low frequency to high frequency by the action of the first and second muffler bodies 20 and 10. Further, a large opening cross-sectional area can be given to the exhaust introduction port 23 and the exhaust port 24 in the first muffler body 20, and an exhaust passage (the inner cylinders 16 and 17 and the middle cylinder 14 in the second muffler body 10). In addition, since a large cross-sectional area can be secured also on each inner side of the outer cylinder 11, it is easy to draw out the output of the engine by reducing resistance to exhaust. Further, based on the combination of the narrow muffler bodies 20 and 10, the layout is more flexible than the thick single muffler, and it is easy to realize a compact and aesthetic arrangement.
[0037]
A motorcycle X shown in FIG. 3 employs the muffler 2 shown in FIG. 2 as an exhaust system based on the above advantages. That is, the motorcycle X is mounted with a four-cylinder four-cycle engine 41 below the fuel tank 47, and exhaust pipes such as an exhaust pipe 42, a manifold 43, and a joint pipe 44 are connected to the exhaust port 41a. The muffler 2 is connected to the part.
[0038]
The configuration of the exhaust pipe and the like is as follows. First, four exhaust pipes 42 equal to the number of cylinders are extended from the engine 41 toward the front lower part, and each is connected to a manifold 43 provided at a lower position of the engine 41. The manifold 43 has four inlet openings and two outlet openings. Through this, the downstream ends of the four exhaust pipes 42 are connected to be integrated with the two joint pipes 44. . Of these two joint pipes 44, one is arranged on the left side of the vehicle body as shown in FIGS. 3A and 3B, and the other one is arranged on the right side of the vehicle body as shown in FIG. 3B. . The muffler 2 is connected to each of the joint pipes 44 arranged one by one on the left side and the right side with their respective downstream ends as the exhaust inlets 23 shown in FIG.
[0039]
As shown in FIGS. 3 (a) and 3 (b), the muffler 2 has both the first muffler body 20 on the lower side and the second muffler body 10 aligned in parallel. It is attached to the position above the axle (below the driver seat 48 and the rear seat 49), with the side facing diagonally (with the rear side with the exhaust outlet 17 raised). In addition to attaching the muffler 1 to such a position and posture, the muffler bodies 20 and 10 have a small diameter (each diameter is 70 to 130 mm), and as shown in FIG. Since the motorcycle 10 is arranged in parallel and close to the side of the vehicle body, this motorcycle X can be banked sufficiently during running, and the vehicle width is small and the weight is concentrated near the center. There are advantages such as being. In connection with this, it is preferable that the appearance is light and speedy. Needless to say, the motorcycle X is good in terms of exhaust noise and engine performance based on the configuration and function of the muffler 1 itself.
[0040]
The muffler 3 shown in FIG. 4 is obtained by modifying the muffler 1 shown in FIG. The muffler 3 in FIG. 4 is composed of a single muffler body, and the muffler body 50 has end wall surfaces 12a and 12b at both ends of the cylindrical outer cylinder 11, and the inner cylinder 14 and the inner cylinder are provided inside. It is the same as the muffler 1 (muffler body 10) in FIG. Parts that are not different from those in the muffler 1 of FIG. 1 are given the same reference numerals in FIG.
[0041]
Unlike the muffler 1 in FIG. 1, a component newly adopted in the muffler 3 in FIG. 4 is in the first half portion (upstream side, that is, the left portion in FIG. 4) in the muffler body 50. That is, the exhaust pipe flows through the same path as that of the downstream portion by, for example, disposing the middle cylinder 53 also in the portion upstream of the partition plate 16a.
[0042]
That is, first, an exhaust introduction pipe 55 inserted as an inner cylinder is formed in the left end wall surface 12 a on the left side of the figure so as to be slightly longer, and the downstream end of the introduction pipe (inner cylinder) 55 is concentric with the outer cylinder 11. It is also inserted concentrically into the arranged middle cylinder 53 (those having a different length from the middle cylinder 14). Inside the middle cylinder 53, a partition plate 53a is provided in the middle in the length direction at a right angle to the axis. On the other hand, with respect to the inner cylinder 16 inserted into the partition plate 16a, the front end portion is extended slightly upstream (to the left in the drawing), and the end portion is inserted concentrically into the middle cylinder 53. To do.
[0043]
As a result, the exhaust gas that enters the muffler body 50 through the introduction pipe (inner cylinder) 55 is reflected a plurality of times at a portion upstream of the partition plate 16a, thereby effectively reducing the energy of the exhaust sound. It will be attenuated. That is, the exhaust gas first proceeds into the middle cylinder 53 through the inside of the introduction pipe 55, hits the partition plate 53 a, then returns to the upstream side, passes through the outside of the introduction pipe 55, and passes through the end of the middle cylinder 53 (illustrated). Go out from the upstream end on the left). Thus, the exhaust gas that has exited the end of the middle cylinder 53 hits the end wall surface 12a of the outer cylinder 11, is turned back, and this time advances outside the middle cylinder 53 to the downstream side (right side in the figure). The exhaust gas further strikes the partition plate 16a, turns back, travels to the left in the middle of the middle cylinder 53, reflects off the partition plate 53a, and enters the inner cylinder 16. As a result, the exhaust is repeatedly reflected a total of four times only in the first half of the muffler body 50, and the energy of the exhaust sound is attenuated each time by causing interference between the reflected wave and the traveling wave.
[0044]
In the latter half portion of the muffler body 50, as described for the muffler body 10 in FIG. 1, the exhaust is repeatedly reflected a plurality of times (four times), and the energy of the exhaust sound is effectively attenuated as in the first half. Therefore, it can be said that the muffler 3 is a compact one having a small outer diameter and low exhaust resistance, and exhibits an excellent silencing effect and is suitable for a motorcycle or the like.
[0045]
In order to alleviate the occurrence of stress due to the difference in thermal expansion between the outer cylinder 11 and the middle cylinders 14, 53 and the inner cylinders 16, 17, 55, the inner cylinder (introducing pipe) 55, the middle cylinder 53, Between the inner cylinder 16 and the partition plate 16a and between the inner cylinder (discharge pipe) 17 and the end wall surface 12b, only one place is fixed by welding or the like, and the other two places are lightly press-fitted. (Fitting that can be relatively moved in the axial direction) is preferable.
[0046]
The muffler 4 illustrated in FIG. 5 is also configured by partially modifying the muffler 1 of FIG. The muffler 4 is composed of a single muffler body, and the muffler body 60 has end wall surfaces 12a and 12b at both ends of the cylindrical outer cylinder 11, for example. Similar to the body 10), the same components as those of the muffler 1 are denoted by the same reference numerals in FIG.
[0047]
A characteristic part of the muffler 4 is that the inner cylinder 67 which becomes a tail pipe (exhaust discharge pipe) is lengthened, and accordingly, a part (upstream part) of the inner cylinder 67 is inserted. That is, the partition plate 64a is provided at the front end portion (portion near the exhaust introduction pipe 15) with respect to the arranged middle cylinder 64. Since the partition plate 64a is provided at the front end portion, the exhaust gas exits the introduction pipe 15, passes through the outside of the middle cylinder 64 (inside the outer cylinder 11), and flows into the middle cylinder 64 from the rear end side. The light is reflected by the plate 64 a and flows out of the inner cylinder 67. Exhaust noise is reduced in the same manner as described above by reflection at the end wall surface 12b and the partition plate 64a, and the exhaust noise is also reduced by the long inner cylinder 67 at the end of the muffler 4 as a tail pipe.
[0048]
A support piece 64b having exhaust passage holes at several locations is provided integrally with the partition plate 64a at the front end of the middle cylinder 64, thereby supporting the middle cylinder 64 concentrically within the outer cylinder 11. . On the other hand, a concentric arrangement between the inner cylinder 64 and the inner cylinder 67 is achieved by attaching support pieces 64c (having exhaust passage holes in several places) between the rear end portion of the inner cylinder 64 and the outer peripheral surface of the inner cylinder 67. Support and realization. Also in this example, considering that a difference in thermal expansion can occur as described above, for example, between the partition plate 64a and the middle cylinder 64, between the support piece 64b and the outer cylinder 11, and between the inner cylinder 67 and the end portion. When the space between the wall surface 12b and the wall surface 12b is fixed by welding, it is preferable that the support piece 64c and the inner cylinder 67 (or the middle cylinder 64) be lightly press-fitted (fitting that can be relatively moved in the axial direction).
[0049]
FIG. 6 shows a muffler 5 configured by connecting two muffler bodies 60 shown in FIG. 5 in parallel. However, each muffler body 60 is arranged so as to approach in parallel with the upstream end wall surface (reference numeral 12a in FIG. 5) removed, and thus the upstream end of each outer cylinder 11 in the open state. A branch pipe 70 continuing from one introduction pipe 15 is connected to 11d. The exhaust gas sent from the introduction pipe 15 passes through the branch pipes 70 and then flows into the respective upstream end portions 11d and passes through the muffler bodies 60, thereby reducing the exhaust noise as described above.
[0050]
In the muffler 5, in addition to the silencing effect by each muffler body 60, the silencing effect in the branch pipe 70 is also provided. That is, since the open end of the exhaust pipe 15 faces the wide space portion of the branch pipe 70, the exhaust gas exiting the introduction pipe 15 expands with the inside of the branch pipe 70 as the first expansion chamber, and the exhaust noise is reduced. It lowers energy. Since the inside of the branch pipe 70 is connected to a wide space in the outer cylinder 11 at the upstream end portion 11d of the two muffler bodies 60, the substantial volume is considerably large, and therefore due to the expansion of the exhaust there. The silencing effect reaches a remarkable level.
[0051]
【The invention's effect】
The engine muffler described in claim 1 has the following effects.
・The second muffler bodyThe exhaust that passes through the inner cylinder is reflected by the partition plate in the inner cylinder to cause interference of reflected waves and traveling waves, etc., while exhibiting a high noise reduction effect, and it is easy to place in a motorcycle etc. with a small outer diameter, In addition, the engine performance is easy to draw because there is little exhaust resistance.
-By the action of the first muffler body, low frequency components in the exhaust sound can be particularly effectively removed. Accordingly, a silencing effect over a wide sound range is exhibited by the action of the second muffler body. Since the outer diameter of the first and second muffler bodies can be reduced, the required space of the entire muffler can be reduced.
[0052]
If it is an engine muffler according to claim 2,
-Since the exhaust folds back at multiple locations in the muffler body, it exhibits a remarkable silencing effect in a wide sound range.
[0053]
According to the engine muffler described in claim 3,
・ Exhaust gas is easy to flow inside, making it easy to demonstrate engine performance, high noise reduction, and easy manufacture and assembly of each part.
[0054]
According to the engine muffler described in claim 4,
-The middle cylinder and the inner cylinder can be easily and stably arranged inside the outer cylinder.
[0055]
Especially in the engine muffler according to claim 5,
-Even when a temperature difference occurs between the outer cylinder and the middle / inner cylinder, the generation of stress due to thermal expansion is reduced.
[0058]
Claim 6The motorcycle described in
・ Exhaust sound with a wide range of sound components removed is emitted, and loss due to exhaust resistance can be reduced to achieve high engine performance. Since the outer diameter of the muffler is small, the overall width can be reduced, the vehicle body can be made compact, and the weight portion can be collected near the center of gravity. There is also a light feeling on the exterior.
[Brief description of the drawings]
FIG. 1 is a longitudinal sectional view showing a muffler 1 as an embodiment of the invention.
FIG. 2 is an overall longitudinal sectional view showing a muffler 2 which is another embodiment of the present invention.
3A and 3B are views showing the motorcycle X to which the muffler 2 of FIG. 2 is attached, where FIG. 3A is a side view and FIG. 3B is a rear view (viewed from the rear).
FIG. 4 is an overall longitudinal sectional view of a muffler 3 that is another embodiment of the present invention.
FIG. 5 is an overall longitudinal sectional view of a muffler 4 which is another embodiment of the present invention.
FIG. 6 is an overall longitudinal sectional view of a muffler 5 which is another embodiment of the present invention.
7 is a longitudinal sectional view showing a conventional general muffler 90. FIG.
FIG. 8 is a longitudinal sectional view showing another conventional muffler 80. FIG.
[Explanation of symbols]
1-5 muffler
10.50.60 Muffler body
11 outer cylinder
12a, 12b End wall
14, 53, 64
14a ・ 53a ・ 64a Partition plate
15, 16, 17, 55, 67 Inner cylinder
20 First muffler body
X motorcycle

Claims (6)

Inside the outer cylinder of one muffler body, there is provided an inner cylinder having a partition plate on the inside so as to reverse the direction of exhaust flow, and an inner cylinder through which the exhaust passes is partially inside the inner cylinder. Is placed in the inserted state ,
And a cylindrical first muffler body having an exhaust inlet and outlet at one end and a wall portion at the other end so that only one expansion chamber is formed therein. An engine muffler characterized in that the muffler body having an outer cylinder, an intermediate cylinder, and an inner cylinder is connected in series as a second muffler body . In the above-mentioned muffler body having the outer cylinder, the middle cylinder, and the inner cylinder, the two inner cylinders are respectively inserted at both ends of the middle cylinder and arranged at positions facing each other across the partition plate. The engine muffler according to claim 1. 3. The engine muffler according to claim 1, wherein the outer cylinder, the middle cylinder, and the inner cylinder are arranged concentrically in the muffler body having the outer cylinder, the middle cylinder, and the inner cylinder. . In the muffler body having the outer cylinder, the middle cylinder, and the inner cylinder, the inner cylinder as the exhaust introduction pipe or the exhaust pipe is supported on the end wall surface of the muffler body,
One end of the middle cylinder is supported on the outer circumference of the supported inner cylinder, and the other inner cylinder is supported on the inner circumference of the other end of the middle cylinder,
4. The engine muffler according to claim 1 , wherein an outer periphery of the other inner cylinder is inserted and supported in an inner opening of a partition plate attached to the inner periphery of the outer cylinder. In the muffler body having the outer cylinder, the middle cylinder, and the inner cylinder, the inner cylinder as the exhaust introduction pipe or the exhaust pipe is fixed to the end wall surface of the muffler body, and the other inner cylinder is connected to the outer cylinder. The engine muffler according to claim 4, wherein the engine muffler is lightly press-fitted inside the partition plate attached to an inner periphery. A motorcycle comprising the engine muffler according to any one of claims 1 to 5 .

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